Application of laser-induced fluorescence and CARS for combustion diagnostics

Laser diagnostic techniques have during the last decade been successfully applied for diagnostics of combustion processes. The main advantages with these techniques are that they are inherently non-intrusive and that spatially as well as temporally resolved information can be achieved. The current paper will exemplify two different laser spectroscopic techniques. Laser-Induced Fluorescence (LIF), and Coherent anti-Stokes Roman Scattering (CARS), which are currently the most used laser techniques for temperature and species concentration measurements in combustion systems.

@misc{bd57272a-ba1b-4f1b-b3ae-5afcd7840ecb,
abstract = {<p>Laser diagnostic techniques have during the last decade been successfully applied for diagnostics of combustion processes. The main advantages with these techniques are that they are inherently non-intrusive and that spatially as well as temporally resolved information can be achieved. The current paper will exemplify two different laser spectroscopic techniques. Laser-Induced Fluorescence (LIF), and Coherent anti-Stokes Roman Scattering (CARS), which are currently the most used laser techniques for temperature and species concentration measurements in combustion systems.</p>},
author = {Aldén, Marcus and Bengtsson, P. E. and Georgiev, N. and Loefstroem, C. and Martinsson, L. and Neij, H.},
issn = {0005-9021},
language = {eng},
number = {12},
pages = {1643--1649},
publisher = {ARRAY(0xbfcd540)},
series = {Berichte der Bunsengesellschaft für Physikalische Chemie},
title = {Application of laser-induced fluorescence and CARS for combustion diagnostics},
volume = {97},
year = {1993},
}